| Product Includes | Product # | Quantity | Color | Storage Temp |
|---|---|---|---|---|
| Cell Growth Multi-Target | 66422 | 96 tests |
|
+4C |
| TMB Substrate | 7004 | 11 ml |
|
+4C |
| STOP Solution | 7002 | 11 ml |
|
+4C |
| Sealing Tape | 54503 | 2 ea |
|
+4C |
| ELISA Wash Buffer (20X) | 9801 | 25 ml |
|
+4C |
| ELISA Sample Diluent | 11083 | 25 ml |
|
+4C |
| Cell Lysis Buffer (10X) | 9803 | 15 ml |
|
-20C |
*The microwell plate is supplied as 12 8-well modules - Each module is designed to break apart for 8 tests.
Description
CST’s PathScan® Cell Growth Multi-Target Sandwich ELISA Kit is a solid phase sandwich enzyme-linked immunosorbent assay (ELISA) that combines the reagents necessary to detect endogenous levels of S6 ribosomal protein, phospho-S6 ribosomal protein (Ser235/236), Akt1, phospho-Akt (Ser473), phospho-Akt (Thr308) and phospho-p44/42 MAPK (Thr202/Tyr204). These molecules represent key signaling proteins in pathways controlling growth and differentiation. Sixteen assays are provided for each target protein. Specific assay formulations for the indicated target proteins can be found in the datasheets associated with the individual sandwich ELISA kits*. Briefly, a capture antibody** has been coated onto the microwells. After incubation with cell lysates, the target protein is captured by the coated antibody. Following extensive washing, a detection antibody** is added to detect the captured target protein. An HRP-linked secondary antibody is then used to recognize the bound detection antibody. HRP substrate, TMB, is added to develop color. The magnitude of absorbance for this developed color is proportional to the quantity of bound target protein. * See companion products. ** Antibodies in kit are custom formulations specific to kit.
Specificity/Sensitivity
The relationship between the protein concentration of the lysate and the absorbance at 450 nm can be found in the datasheets associated with the individual PathScan® Sandwich ELISA Kits*. *See companion products.
This kit detects proteins from the indicated species, as determined through in-house testing, but may also detect homologous proteins from other species.
Background
Akt is a protooncogene with a critical regulatory role in diverse cellular processes including growth, survival and the cell cycle. Akt is also a major regulator of insulin signaling and glucose metabolism (1-4). Akt is activated by PI3 kinase signaling and activation loop phosphorylation at Thr308 by PDK1 and by phosphorylation within the carboxy terminus at Ser473 by the mTOR-rictor complex (TORC1) (5-7).
Both p44 and p42 MAP kinases (Erk1 and Erk2) function in a protein kinase cascade that plays a critical role in the regulation of cell growth and differentiation (8-13). MAP kinases are activated by a wide variety of extracellular signals including growth and neurotrophic factors, cytokines, hormones and neurotransmitters. Activation of MAP kinases occurs through phosphorylation of threonine and tyrosine (202 and 204 of human MAP kinase or 183 and 185 of rat MAP kinase) at the sequence T*EY* by a single upstream MAP kinase kinase (MEK) (14,15).
To effectively promote growth and cell division in a sustained manner, growth factors and mitogens must upregulate translation (16,17). Growth factors and mitogens induce the activation of p70 S6 kinase, which in turn phosphorylates the S6 ribosomal protein. Phosphorylation of S6 ribosomal protein correlates with an increase in translation, particularly of mRNAs with an oligopyrimidine tract in their 5' untranslated regions (17). This group of mRNAs (5'TOP) encodes proteins involved in cell cycle progression and proteins that are part of the translational machinery, such as ribosomal proteins and elongation factors (17,18). The main in vivo S6 ribosomal protein phosphorylation sites, including Ser235, Ser236, Ser240 and Ser244, are located within a small 19 amino acid region in the S6 carboxy terminus (19,20).
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- Zdychová, J. and Komers, R. (2005) Physiol Res 54, 1-16.
- Song, G. et al. J Cell Mol Med 9, 59-71.
- Manning, B.D. and Cantley, L.C. (2007) Cell 129, 1261-74.
- Alessi, D.R. et al. (1996) EMBO J 15, 6541-51.
- Sarbassov, D.D. et al. (2005) Science 307, 1098-101.
- Jacinto, E. et al. (2006) Cell 127, 125-37.
- McKay, M.M. and Morrison, D.K. (2007) Oncogene 26, 3113-21.
- Pearson, G. et al. (2001) Endocr Rev 22, 153-83.
- Marshall, C.J. (1995) Cell 80, 179-85.
- Hunter, T. (1995) Cell 80, 225-36.
- Hill, C.S. and Treisman, R. (1995) Cell 80, 199-211.
- Cowley, S. et al. (1994) Cell 77, 841-52.
- Sturgill, T.W. et al. (1988) Nature 334, 715-8.
- Payne, D.M. et al. (1991) EMBO J 10, 885-92.
- Dufner, A. and Thomas, G. (1999) Exp Cell Res 253, 100-9.
- Peterson, R.T. and Schreiber, S.L. (1998) Curr Biol 8, R248-50.
- Jefferies, H.B. et al. (1997) EMBO J 16, 3693-704.
- Ferrari, S. et al. (1991) J Biol Chem 266, 22770-5.
- Flotow, H. and Thomas, G. (1992) J Biol Chem 267, 3074-8.
Background References
Cross-Reactivity Key
H: human M: mouse R: rat Hm: hamster Mk: monkey Vir: virus Mi: mink C: chicken Dm: D. melanogaster X: Xenopus Z: zebrafish B: bovine Dg: dog Pg: pig Sc: S. cerevisiae Ce: C. elegans Hr: horse GP: Guinea Pig Rab: rabbit All: all species expected
Trademarks and Patents
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